rocket-chip/src/main/scala/rocketchip/DebugTransport.scala

package rocketchip

import Chisel._
import uncore.devices._
import junctions._
import util._
import config._

case object IncludeJtagDTM extends Field[Boolean]

/*  JTAG-based Debug Transport Module
 *  and synchronization logic.
 *  
 *  This implements JTAG interface described
 *  in the RISC-V Debug Specification
 *
 * This Module is currently a
 *  wrapper around a JTAG implementation
 *  of the Debug Transport Module.
 *  This is black-boxed because
 *  Chisel doesn't currently support:
 *    - Negative Edge Clocking
 *    - Asynchronous Resets
 *   (The tristate requirements of JTAG are exported from the 
 *    Chisel domain with the DRV_TDO signal).
 *
 *  The 'TRST' input is used to asynchronously
 *  reset the Debug Transport Module and the
 *  DTM side of the synchronizer.
 *  This design requires that TRST be
 *  synchronized to TCK (for de-assert) outside
 *  of this module. Your top level code should ensure
 *  that TRST is asserted before the rocket-chip core
 *  comes out of reset.
 *  Note that TRST is an optional
 *  part of the JTAG protocol, but it is not
 *  optional for interfacing with this logic.
 * 
 */

class JtagDTMWithSync(implicit val p: Parameters) extends Module {
  // io.DebugBusIO <-> Sync <-> DebugBusIO <-> UInt <-> DTM Black Box

  val io = new Bundle {
    val jtag = new JTAGIO(true).flip
    val debug = new AsyncDebugBusIO
  }

  val req_width = io.debug.req.mem(0).getWidth
  val resp_width = io.debug.resp.mem(0).getWidth

  val jtag_dtm = Module(new DebugTransportModuleJtag(req_width, resp_width))
  jtag_dtm.io.jtag <> io.jtag

  val io_debug_bus = Wire (new DebugBusIO)
  io.debug <> ToAsyncDebugBus(io_debug_bus)

  val dtm_req = jtag_dtm.io.dtm_req
  val dtm_resp = jtag_dtm.io.dtm_resp

  // Translate from straight 'bits' interface of the blackboxes
  // into the Resp/Req data structures.
  io_debug_bus.req.valid  := dtm_req.valid
  io_debug_bus.req.bits   := new DebugBusReq(p(DMKey).nDebugBusAddrSize).fromBits(dtm_req.bits)
  dtm_req.ready := io_debug_bus.req.ready

  dtm_resp.valid := io_debug_bus.resp.valid
  dtm_resp.bits  := io_debug_bus.resp.bits.asUInt
  io_debug_bus.resp.ready  := dtm_resp.ready
}

class DebugTransportModuleJtag(reqSize : Int, respSize : Int)(implicit val p: Parameters)  extends BlackBox {
  val io = new Bundle {
    val jtag = new JTAGIO(true).flip()
    val dtm_req = new DecoupledIO(UInt(width = reqSize))
    val dtm_resp = new DecoupledIO(UInt(width = respSize)).flip()
  }
}
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00			`package rocketchip`

			`import Chisel._`
rocket: change connection between rocketchip and coreplex * rtc and dtm are now crossed half-and-half on the two sides * groundtest no longer uses riscv platform traits 2016-11-16 03:27:52 +01:00			`import uncore.devices._`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00			`import junctions._`
Move a bunch more things into util package A lot of utility code was just being imported willy-nilly from one package to another. This moves the common code into util to make things more sensible. The code moved were * The AsyncQueue and AsyncDecoupledCrossing from junctions. * All of the code in rocket's util.scala * The BlackBox asynchronous reset registers from uncore.tilelink2 * The implicit definitions from uncore.util 2016-09-28 06:27:07 +02:00			`import util._`
rocketchip: move from using cde to config 2016-11-18 23:05:14 +01:00			`import config._`
This commit adds Logic & test support for JTAG implementation of Debug Transport Module. - The DebugTransportModuleJtag is written in Verilog. It probably could be written in Chisel except for some negative edge clocking requirement. - For real implementations, the AsyncDebugBusTo/From is insufficient. This commit includes cases where they are used, but because they are not reset asynchronously, a Verilog 'AsyncMailbox' is used when p(AsyncDebug) is false. - This commit differs significantly from the earlier attempt. Now, the DTM and synchronizer is instantiated within Top, as it is a real piece of hardware (vs. test infrastructure). -TestHarness takes a parameter vs. creating an entirely new TestHarness class. It does not make sense to instantiate TestHarness when p(IncludeJtagDTM) is false, and it would not make sense to insantiate some other TestHarness if p(IncludeJtagDTM) is true. To build Verilog which includes the JtagDTM within Top: make CONFIG=WithJtagDTM_... To test using gdb->OpenOCD->jtag_vpi->Verilog: First, install openocd (included in this commit) ./bootstrap ./configure --prefix=$OPENOCD --enable-jtag-vpi make make install Then to run a simulation: On a 32-bit core: $(ROCKETCHIP)/riscv-tools/riscv-tests/debug/gdbserver.py \ --run ./simv-TestHarness-WithJtagDTM_... \ --cmd="$OPENOCD/bin/openocd --s $OPENOCD/share/openocd/scripts/" \ --freedom-e300-sim \ SimpleRegisterTest.test_s0 On a 64-bit core: $(ROCKETCHIP)/riscv-tools/riscv-tests/debug/gdbserver.py \ --run ./simv-TestHarness-WithJtagDTM_... \ --cmd="$OPENOCD/bin/openocd --s $OPENOCD/share/openocd/scripts/" \ --freedom-u500-sim \ SimpleRegisterTest.test_s0 2016-08-19 23:01:33 +02:00
			`case object IncludeJtagDTM extends Field[Boolean]`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00
			`/* JTAG-based Debug Transport Module`
			`* and synchronization logic.`
			`*`
			`* This implements JTAG interface described`
			`* in the RISC-V Debug Specification`
			`*`
Cleanup jtag dtm (#342) * debug: Clean up Debug TransportModule synchronizer With async reset async queues, I feel its safe/cleaner to remove the one-off "AsyncMailbox verilog black-box and use the common primitive. I also added some comments about correct usage of this block. Probably the 'TRST' signal should be renamed to make it less confusing, as it requires some processing of the real JTAG 'TRST' signal. 2016-09-26 20:10:27 +02:00			`* This Module is currently a`
			`* wrapper around a JTAG implementation`
			`* of the Debug Transport Module.`
			`* This is black-boxed because`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00			`* Chisel doesn't currently support:`
			`* - Negative Edge Clocking`
			`* - Asynchronous Resets`
			`* (The tristate requirements of JTAG are exported from the`
			`* Chisel domain with the DRV_TDO signal).`
Cleanup jtag dtm (#342) * debug: Clean up Debug TransportModule synchronizer With async reset async queues, I feel its safe/cleaner to remove the one-off "AsyncMailbox verilog black-box and use the common primitive. I also added some comments about correct usage of this block. Probably the 'TRST' signal should be renamed to make it less confusing, as it requires some processing of the real JTAG 'TRST' signal. 2016-09-26 20:10:27 +02:00			`*`
			`* The 'TRST' input is used to asynchronously`
			`* reset the Debug Transport Module and the`
			`* DTM side of the synchronizer.`
			`* This design requires that TRST be`
			`* synchronized to TCK (for de-assert) outside`
			`* of this module. Your top level code should ensure`
			`* that TRST is asserted before the rocket-chip core`
			`* comes out of reset.`
			`* Note that TRST is an optional`
			`* part of the JTAG protocol, but it is not`
			`* optional for interfacing with this logic.`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00			`*`
			`*/`

DebugTransport: use ToAsyncDebugBus for correct depth 2016-11-26 03:10:28 +01:00			`class JtagDTMWithSync(implicit val p: Parameters) extends Module {`
Cleanup jtag dtm (#342) * debug: Clean up Debug TransportModule synchronizer With async reset async queues, I feel its safe/cleaner to remove the one-off "AsyncMailbox verilog black-box and use the common primitive. I also added some comments about correct usage of this block. Probably the 'TRST' signal should be renamed to make it less confusing, as it requires some processing of the real JTAG 'TRST' signal. 2016-09-26 20:10:27 +02:00			`// io.DebugBusIO <-> Sync <-> DebugBusIO <-> UInt <-> DTM Black Box`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00
			`val io = new Bundle {`
rocket: change connection between rocketchip and coreplex * rtc and dtm are now crossed half-and-half on the two sides * groundtest no longer uses riscv platform traits 2016-11-16 03:27:52 +01:00			`val jtag = new JTAGIO(true).flip`
			`val debug = new AsyncDebugBusIO`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00			`}`

rocket: change connection between rocketchip and coreplex * rtc and dtm are now crossed half-and-half on the two sides * groundtest no longer uses riscv platform traits 2016-11-16 03:27:52 +01:00			`val req_width = io.debug.req.mem(0).getWidth`
			`val resp_width = io.debug.resp.mem(0).getWidth`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00
DebugTransport: use ToAsyncDebugBus for correct depth 2016-11-26 03:10:28 +01:00			`val jtag_dtm = Module(new DebugTransportModuleJtag(req_width, resp_width))`
Use <> instead of := for bi-directional connections 2016-10-05 07:28:56 +02:00			`jtag_dtm.io.jtag <> io.jtag`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00
			`val io_debug_bus = Wire (new DebugBusIO)`
DebugTransport: use ToAsyncDebugBus for correct depth 2016-11-26 03:10:28 +01:00			`io.debug <> ToAsyncDebugBus(io_debug_bus)`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00
DebugTransport: use ToAsyncDebugBus for correct depth 2016-11-26 03:10:28 +01:00			`val dtm_req = jtag_dtm.io.dtm_req`
			`val dtm_resp = jtag_dtm.io.dtm_resp`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00
			`// Translate from straight 'bits' interface of the blackboxes`
			`// into the Resp/Req data structures.`
			`io_debug_bus.req.valid := dtm_req.valid`
			`io_debug_bus.req.bits := new DebugBusReq(p(DMKey).nDebugBusAddrSize).fromBits(dtm_req.bits)`
			`dtm_req.ready := io_debug_bus.req.ready`

			`dtm_resp.valid := io_debug_bus.resp.valid`
			`dtm_resp.bits := io_debug_bus.resp.bits.asUInt`
			`io_debug_bus.resp.ready := dtm_resp.ready`
			`}`

			`class DebugTransportModuleJtag(reqSize : Int, respSize : Int)(implicit val p: Parameters) extends BlackBox {`
			`val io = new Bundle {`
connect testharness components via member functions (#236) to prevent code duplication for new testbenches 2016-09-02 03:38:39 +02:00			`val jtag = new JTAGIO(true).flip()`
Add JTAG DTM and test support in simulation Initial cut checkpoint which compiles and runs but there is some off-by-1 in the protocol Debugging the clock crossing logic checkpoint which works Clean up the AsyncMailbox black box 2016-08-19 18:46:43 +02:00			`val dtm_req = new DecoupledIO(UInt(width = reqSize))`
			`val dtm_resp = new DecoupledIO(UInt(width = respSize)).flip()`
			`}`
			`}`